50 kg 0.02kg 4.00m/s 5.00m/s -1 40 kg 0.025kg 2.50m/s -1 80 kg 0.0125kg 100 kg 0.01kg 2.00m/s 1.33m/s -1 150 kg 0.006666666667kg -1 2 200 kg 0,005kg 1.00m/s 0.91m/s -1 220 kg 0.004545454545kg -1 240 kg 0.004166666667kg 0.83m/s -1 300 kg 0.003333333333kg 0.67m/s -1 340 kg 0.002941176471kg 0.59m/s
50 kg 0.02kg 4.00m/s 5.00m/s -1 40 kg 0.025kg 2.50m/s -1 80 kg 0.0125kg 100 kg 0.01kg 2.00m/s 1.33m/s -1 150 kg 0.006666666667kg -1 2 200 kg 0,005kg 1.00m/s 0.91m/s -1 220 kg 0.004545454545kg -1 240 kg 0.004166666667kg 0.83m/s -1 300 kg 0.003333333333kg 0.67m/s -1 340 kg 0.002941176471kg 0.59m/s
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Question
From Table 3 on the image
1.Graph the acceleration (a) as a function of the mass (m).
2.What does the a vs m graph imply?
Transcribed Image Text:Table 3
Applied force 200 N
%3D
Mass, m (kg)
(kg)
Acceleration, a
Mass
50 kg
0.02kg
4,00m/s
40 kg
0.025kg
5.00m/s
80 kg
0.0125kg
-1
2.50m/s
100 kg
0.01kg
2.00m/s
150 kg
0.006666666667kg
-1
1.33m/s"
200 kg
0,005kg
-1
1.00m/s
220 kg
0.004545454545kg
-1
0.91m/s
240 kg
0.004166666667kg
-1
0.83m/s
300 kg
0.003333333333kg
-1
0.67m/s
340 kg
-1
0.002941176471kg
0.59m/s
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